RU2300716C1 - Cryogenic fueling plant for vehicle filling with liquefied natural gas - Google Patents

Abstract

FIELD: cryogenic equipment, particularly reversible Stirling cryogenic machines, for instance adapted for vehicle filling.

SUBSTANCE: cryogenic fueling plant comprises low-pressure or medium-pressure gas pipeline sections, water and carbon dioxide freezer, Stirling cryogenic machine, closed cooling loop for cryogenic machine cooling including pump for cooling liquid circulation and heat-exchanger for heat dissipation in ambient space. Cryogenic fueling plant also has ambient air loop including ambient air supply fan, cryogenic vessel for liquefied natural gas storage, natural gas supply and discharge lines and lines for liquid natural gas vapor re-condensation. The lines connect gas pipeline, cryogenic machine and freezer. Cryogenic fueling plant comprises liquefied natural gas fuel distribution column with fueling nozzle. Heat-insulated liquefied natural gas supply line with cryogenic pump and heat-insulated liquid natural gas vapor return line connect liquefied natural gas storage vessel and fueling nozzle.

EFFECT: possibility to re-condensate liquefied natural gas vapor exiting from fuel tanks of vehicles and decreased liquefied natural gas losses.

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Description

The invention relates to the field of cryogenic technology, cryogenic gas machines operating on the reverse Stirling cycle, and can be used to create automobile gas stations when converting vehicles to liquefied natural gas as motor fuel.

A device of cabinet regulatory points is known for connecting individual consumers of natural gas to gas pipelines (KG Kyazimov, Gazovik Handbook. Handbook. 3rd ed., Moscow: Vysshaya Shkola, 2000. - p. 158).

Known technical solutions for the creation of garage gas stations intended for placement directly in the fleets and refueling vehicles with natural gas (Vyazenkin G.N., Podlovchenko G.I., Babayan A.S., Levin A.A. Garage type gas stations. / / Gas industry. No. 10, 1999. - p. 52). However, these technical solutions are intended only for the production of compressed natural gas.

A well-known schematic diagram of an individual LNG refueling complex for automobile transport, including a low or medium pressure gas pipeline section, a water and carbon dioxide freezer, a cryogenic Stirling machine, a closed cooling system for a cryogenic machine containing a pump for circulating coolant and a heat exchanger for heat dissipation into the environment, the environment circuit with a fan for supplying ambient air, a container for storing liquefied natural gas, lines for supplying natural gas, draining and re-liquefying vapors of liquefied natural gas, connecting a gas pipeline, a cryogenic machine and a freezer (Kirillov N.G. Individual and garage gas stations of LNG for automobile transport of Russia. // Gas and gas complex + Alternative fuel, No. 4, 2004 .-- p. 58). However, this schematic diagram does not contain technical solutions for refueling vehicles with liquefied natural gas.

The technical result that can be obtained by carrying out the invention lies in the possibility of condensation of vapors of liquefied natural gas from the tanks of cars and to reduce losses when it is used as motor fuel.

To achieve this technical result, a cryogenic automobile gas station for liquefied natural gas, including a section of a gas pipeline of low or medium pressure, a freezer of water and carbon dioxide, a cryogenic Stirling machine, a closed cooling system for a cryogenic machine, containing a pump for circulating coolant and a heat exchanger for heat dissipation into the environment, the environment circuit with a fan for supplying ambient air, a container for storing liquefied natural gas, l The lines for supplying natural gas, draining and re-liquefying vapors of liquefied natural gas, connecting a gas pipeline, a cryogenic machine and a freezer, are equipped with a fuel dispensing column of liquefied natural gas with a filling gun, heat-insulated lines for supplying liquefied natural gas with a cryogenic pump and returning vapors connecting the tank for storage of liquefied natural gas and a filling gun, while the vapor recovery line is connected to the gas cavity of the cryogenic tank for storing liquefied natural gas of natural gas.

The introduction of a liquefied natural gas fuel dispenser with a refueling gun into a cryogenic automobile gas station of liquefied natural gas, heat-insulated liquefied natural gas supply lines with a cryogenic pump and the return of vapors connecting the liquefied natural gas storage tank and refueling gun allows to obtain a new property, which consists the possibility of collecting vapors of liquefied natural gas from car tanks in the gas cavity of a container for storing liquefied natural gas natural gas with subsequent recondensation in Stirling cryogenic machine.

The drawing shows a cryogenic automobile gas station for liquefied natural gas.

The cryogenic automobile liquefied natural gas filling station includes a natural gas source 1 (low pressure production gas pipeline), a production natural gas supply line 2 from source 1, a cryogenic Stirling machine 3, a liquefied natural gas discharge line 4, a fuel dispenser 5 with a filling gun , a cryogenic tank for storing liquefied gas 6. The production natural gas supply line 2 includes a gas distribution cabinet 7, a freezer 8, and connects a source of natural gas about gas 1 with a condenser 9 by a cryogenic Stirling machine 3. A liquefied gas discharge line 4 connects the capacitor 9 of a cryogenic Stirling machine 3 with a cryogenic tank 6 and passes through a freezer 8. The gas part of the tank 6 is connected to the freezer 8 using a jumper 10 with a check valve 11.

The fuel dispensing column 5 of liquefied natural gas with a filling gun is connected to a cryogenic tank 6 with heat-insulated lines for supplying liquefied natural gas 12 and vapor return 13, while the vapor return line 13 is connected to the gas cavity of cryogenic tank 6. To supply liquefied natural gas from tank 6 to dispensing column 5 provides a cryogenic pump 14.

To remove the heat load from the cryogenic machine 3, a closed cooling system 15 is provided, passing through the refrigerator 16 of the cryogenic machine 3. The cooling system 15 includes a pump 17 and a heat exchanger 18. An external circuit 19 (atmospheric air) passes through the heat exchanger 18. The external medium is supplied to the heat exchanger 18 using a fan 20.

Cryogenic automobile gas station liquefied natural gas operates as follows.

Natural gas from a medium or low pressure production gas pipeline 1 through a supply line 2 through a gas distribution cabinet 7 and a freezer 8, where it is purified from carbon dioxide and water vapor, enters the condenser 9 of the cryogenic Stirling machine 3. In the condenser 9, natural gas is liquefied and gravity drains along the drain line of liquefied natural gas 4, passing through the freezer 8 and cooling it into a cryogenic tank 6.

Liquefied natural gas is supplied to the fuel dispenser 5 with a filling gun from the tank for storing liquefied gas 6 using a cryogenic pump 14. Liquefied natural gas enters the tank of the car (not shown) in a heat-insulated line 12 through column 5. Vapors of liquefied natural gas from the vehicle’s tank, through line 13 they return to the gas cavity of the cryogenic tank 6.

For the condensation of vapors of liquefied natural gas, the gas cavity of the tank 6 is connected to the condenser 9 of the cryogenic Stirling machine through a freezer 8 using a jumper 10 with a check valve 11.

To remove the heat load from the cryogenic machine 3, a closed cooling system 15 is provided, passing through the refrigerator 16 of the cryogenic machine 3. The pump 17 circulates the cooling liquid through the cooling system 15, while the cooling heat is transmitted through the heat exchanger 18 to the external circuit 19. The external environment (atmospheric air ) is supplied to the heat exchanger 18 using a fan 20.

Sources of information taken into account when preparing the application:

1. Kyazimov K.G. Reference gasman. Reference, allowance. - 3rd ed., Moscow: Higher School, 2000. - p. 158.

2. Vyazenkin G.N., Podlovchenko G.I., Babayan A.S., Levin A.A. Garage type gas stations. // Gas industry. No. 10, 1999. - p. 52.

3. Kirillov N.G. Individual and garage gas stations for LNG automobile transport in Russia. // Filling complex + Alternative fuel, No. 4, 2004. - p. 58 - prototype.

Claims (1)

Liquefied natural gas automobile cryogenic filling station, which includes a low or medium pressure gas pipeline section, a water and carbon dioxide freezer, a cryogenic Stirling machine, a closed cryogenic machine cooling system containing a pump for circulating coolant and a heat exchanger to discharge heat into the environment, a circuit external environment with a fan for supplying ambient air, a cryogenic tank for storing liquefied natural gas, a natural gas supply line, discharge and Liquefied natural gas vapor re-liquefaction, connecting a gas pipeline, a cryogenic machine and a freezer, characterized in that it is equipped with a liquefied natural gas fuel dispensing column with a filling gun, heat-insulated liquefied natural gas supply lines with a cryogenic pump and vapor recovery lines connecting the liquefied natural gas storage tank gas and a filling gun, while the vapor recovery line is connected to the gas cavity of the cryogenic tank for storing liquefied natural gas.